Planet finding prospects for the Space Interferometry Mission

Astrophysics, abstract
astro-ph/0305030

From: Eric B. Ford <eford@princeton.edu>

Date: Fri, 2 May 2003 18:45:10 GMT   (107kb)

The Space Interferometry Mission (SIM) will make precise astrometric
measurements that can be used to detect planets around nearby stars. We have
simulated SIM observations and estimated the ability of SIM to detect planets
with given masses and orbital periods and measure their orbital elements. We
combine these findings with an estimate of the mass and period distribution of
planets determined from radial velocity surveys to predict the number and
characteristics of planets SIM would likely find. Our predictions are based on
extrapolating the mass distribution of known extrasolar planets by up to a
factor of 100. This extrapolation provides the best prediction we can make of
the actual number of planets that SIM will detect and characterize, but may
substantially over- or underestimate the frequency of Earth-mass planets,
especially if these form by a different mechanism than giant planets. We find
that SIM is likely to detect 1-5 planets with masses less than 3 M_Earth
(depending on mission parameters). SIM would measure masses and orbits with 30%
accuracy for 0-2 of these planets, but is unlikely to measure orbits with 10%
accuracy for more than one of them. SIM is likely to detect 5-25 planets with
mass less than 20 M_Earth, measure masses and orbits with 30% accuracy for 2-12
of these, and measure masses and orbits with 10% accuracy for 2-8 such planets.
SIM is likely to find 25-160 planets of all masses, depending on the observing
strategy and mission lifetime.

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